CONTROL SYSTEM OF THE ELECTRIC DRIVE OF THE LOOP HOLDER OF THE FINISHING GROUP OF THE HOT ROLLING MILL, WHICH IMPLEMENTS CONTROL AND FORCING OF THE ELECTRIC DRIVE MOMENT

Kontrol'. Diagnostika Pub Date : 2023-06-01 DOI:10.14489/td.2023.06.pp.044-049

V. Meshcheryakov, O. V. Kryukov, E. Didenko

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Abstract

The operation of the DC electric drive of the loop holder installed on the hot rolling mill between the stands of the finishing group, which is part of the SARN with the indirect principle of metal tension control, which generates control signals based on the control of the specific tension of the strip passing between two stands, is considered. It is shown that the SARN action algorithm is based on taking into account the impact on the strip of the auxiliary mechanism – the loop holder, the frame of which must be rotated to the optimal angle. The conditions are described under which the looper is in an equilibrium state, when the moment of the electric motor balances the moment of resistance on its shaft, determined by the force arising due to the tension of the strip. It is shown that the high-speed electric drive of the looper, which is in the steady braking mode for most of the cycle time and creates a braking torque, at the moment the strip enters the interstand gap, should provide a short-term forcing of the moment for the movement of the frame, followed by a stop in the allowable zone of the angle of rotation.

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热轧机精轧机组环形支架电气传动控制系统，实现对电气传动力矩的控制和强制作用

该系统是采用金属张力间接控制原理的 SARN 的一部分，根据对在两个机架之间通过的带钢的特定张力的控制产生控制信号。结果表明，SARN 的动作算法是基于考虑辅助机构--环形支架--对带钢的影响，环形支架的框架必须旋转到最佳角度。当电机的力矩与轴上的阻力矩（由带钢张力产生的力决定）相平衡时，说明了开卷机处于平衡状态的条件。结果表明，开卷机的高速电力驱动在大部分循环时间内处于稳定制动模式，并在带钢进入机架间隙的瞬间产生制动力矩，为机架运动提供短期力矩，然后在旋转角度的允许区域内停止。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Kontrol'. Diagnostika

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